This gets rid of xasprintf() in a number of places, and removes the need
to free() the temporary strings. A few potential memory leaks have been
fixed.
This dumps the name of the invitation file, as well as the name of the
node that is being invited. This can make it easier to find the
invitation file belonging to a given node.
It is possible that opening /dev/net/tun works but that interface
creation itself fails, for example if a non-root user tries to create a
new interface, or if the desired interface is already opened by another
process. In this case, the ioctl() fails, but we actually silently
ignored this condition.
The compile time local state directory is usually /var or
/usr/local/var. If this is not accessible for some reason, for example
because someone ./configured tinc without --localstatedir and
/usr/local/var does not exist, or if tinc is started by a non-root user,
then tinc will fall back to the directory where tinc.conf is stored.
A warning is logged when this happens.
This function is not used for normal traffic, only when a packet from an
unknown source is received and we need to check against candidates. No
failures should be logger in this case; if the packet is really not
valid this will be logged by handle_incoming_vpn_data().
This option is not supported by older, but still widely used versions of
automake. The drawback is that when doing multiple VPATH builds in a
row, the info manual may mention incorrect paths, but it doesn't affect
the executables at all.
try_tx_sptps() gives up on UDP communication if the recipient doesn't
support relaying. This is too restrictive - we only need the other node
to support relaying if we actually want to relay through them. If the
packet is sent directly, it's fine to send it to an old pre-node-IDs
tinc-1.1 node.
Currently, tinc tries to parse node IDs for all SPTPS packets, including
ones sent from older, pre-node-IDs tinc-1.1 nodes, and therefore doesn't
recognize packets from these nodes. This commit fixes that.
It also makes code slightly clearer by reducing the amount of fiddling
around packet offset/length.
A condition in try_harder() is always evaluating to false when talking
to a SPTPS node because n->status.validkey_in is always false in that
case. Fix the condition so that the SPTPS status is correctly checked.
This prevented recent tinc-1.1 nodes from talking to older, pre-node-ID
tinc-1.1 nodes.
The regression was introduced in
6056f1c13b.
Since commit 13f9bc1ff1, tinc passes the
-I. option to the preprocessor so that version_git.h can be found during
out-of-tree ("VPATH") builds.
The problem is, this option also affects the directory search for files
included *from* system headers. For example, on MinGW, unistd.h contains
the following line:
#include <process.h>
Which, due to -I. putting the tinc directory at the head of the search
order, results in tinc's process.h being included instead of the file
from MinGW. Hilarity ensues.
This commit fixes the issue by using -iquote, which doesn't affect
system headers.
KEY_CHANGED messages are only useful to invalidate keys for non-SPTPS nodes;
SPTPS nodes use a different internal mechanism (forced KEX) for that purpose.
Therefore, if we know we can't talk to legacy nodes, there's no point in
sending them these messages.
There are a number of ways a SPTPS tunnel can get into a corrupt state.
For example, during key regeneration, the KEX and SIG messages from
other nodes might arrive out of order, which confuses the hell out of
the SPTPS code. Another possible scenario is not noticing another node
crashed and restarted because there was no point in time where the node
was seen completely disconnected from *all* nodes; this could result in
using the wrong (old) key. There are probably other scenarios which have
not even been considered yet. Distributed systems are hard.
When SPTPS got confused by a packet, it used to crash the entire
process; fortunately that was fixed by commit
2e7f68ad2b. However, the error handling
(or lack thereof) leaves a lot to be desired. Currently, when SPTPS
encounters an error when receiving a packet, it just shrugs it off and
continues as if nothing happened. The problem is, sometimes getting
receive errors mean the tunnel is completely stuck and will not recover
on its own. In that case, the node will become unreachable - possibly
indefinitely.
The goal of this commit is to improve SPTPS error handling by taking
proactive action when an incoming packet triggers a failure, which is
often an indicator that the tunnel is stuck in some way. When that
happens, we simply restart SPTPS entirely, which should make the tunnel
recover quickly.
To prevent "storms" where two buggy nodes flood each other with invalid
packets and therefore spend all their time negotiating new tunnels, we
limit the frequency at which tunnel restarts happen to ten seconds.
It is likely this commit will solve the "Invalid KEX record length
during key regeneration" issue that has been seen in the wild. It is
difficult to be sure though because we do not have a full understanding
of all the possible conditions that can trigger this problem.
Commit 10c1f60c64 introduced a mechanism
by which a packet received by REQ_KEY could continue its journey over
UDP. This was based on the assumption that REQ_KEY messages would never
be used for handshake packets (which should never be sent over UDP,
because SPTPS currently doesn't handle lost handshake packets very
well).
Unfortunately, there is one case where handshake packets are sent using
REQ_KEY: when regenerating the SPTPS key for a pre-established channel.
With the current code, such packets risk getting relayed over UDP.
When processing a REQ_KEY message, it is impossible for the receiving
end to distinguish between a data SPTPS packet and a handshake packet,
because this information is stored in the type field which is encrypted
with the end-to-end key.
This commit fixes the issue by making tinc use ANS_KEY for all SPTPS
handshake messages. This works because ANS_KEY messages are never
forwarded using the SPTPS relay mechanisms, therefore they are
guaranteed to stick to TCP.
If the ADD_EDGE is for one of the edges we own, and if it is not the
same as we actually have, send a correcting ADD_EDGE back. Otherwise, if
the ADD_EDGE contains new information, update our idea of the local
address for that edge.
If the ADD_EDGE does not contain local address information, then we
never make a correction nor log a warning.
Currently, SPTPS packets are transported over TCP metaconnections using
extended REQ_KEY requests, in order for the packets to pass through
tinc-1.0 nodes unaltered. Unfortunately, this method presents two
significant downsides:
- An already encrypted SPTPS packet is decrypted and then encrypted
again every time it passes through a node, since it is transported
over the SPTPS channels of the metaconnections. This
double-encryption is unnecessary and wastes CPU cycles.
- More importantly, the only way to transport binary data over
standard metaconnection messages such as REQ_KEY is to encode it
in base64, which has a 33% encoding overhead. This wastes 25% of the
network bandwidth.
This commit introduces a new protocol message, SPTPS_PACKET, which can
be used to transport SPTPS packets over a TCP metaconnection in an
efficient way. The new message is appropriately protected through a
minor protocol version increment, and extended REQ_KEY messages are
still used with nodes that do not support the new message, as well as
for the intial handshake packets, for which efficiency is not a concern.
The way SPTPS_PACKET works is very similar to how the traditional PACKET
message works: after the SPTPS_PACKET message, the raw binary packet is
sent directly over the metaconnection. There is one important
difference, however: in the case of SPTPS_PACKET, the packet is sent
directly over the TCP stream completely bypassing the SPTPS channel of
the metaconnection itself for maximum efficiency. This is secure because
the SPTPS packet that is being sent is already encrypted with an
end-to-end key.
sptps_receive_data() always consumes the entire buffer passed to it,
which is somewhat inflexible. This commit improves the interface so that
sptps_receive_data() consumes at most one record. The goal is to allow
non-SPTPS stuff to be interleaved with SPTPS records in a single TCP
stream.
REQ_SPTPS implies the message has an ANS_ counterpart (like REQ_KEY,
ANS_KEY), but it doesn't. Therefore dropping the REQ_ seems more
appropriate, and we add a _PACKET suffix to reduce the likelihood of
naming conflicts.
Currently, when tinc receives a SPTPS packet over TCP via the REQ_KEY
encapsulation mechanism, it forwards it like any other TCP request. This
is inefficient, because even though we received the packet over TCP,
we might have an UDP link with the next hop, which means the packet
could be sent over UDP.
This commit removes that limitation by making sure SPTPS data packets
received through REQ_KEY requests are not forwarded as-is but passed
to send_sptps_data() instead, thereby using the same code path as if
the packet was received over UDP.
net_packet doesn't actually use send_sptps_data(); it only uses
send_sptps_data_priv(). In addition, the only user of send_sptps_data()
is protocol_key. Therefore it makes sense to expose
send_sptps_data_priv() directly, and move send_sptps_data() (which is
basically just boilerplate) as a local function in protocol_key.
Currently, when relaying SPTPS UDP packets, the code uses the direct
sender as the originator, instead of preserving the original source ID.
This wouldn't cause any issues in most cases because the originator and
the sender are the same in simple one-hop relay chains, but this will
break as soon as there is more than one relay.
This fixes some issues with the build system when building out of tree.
With this commit, it is now possible to do the following:
$ cd /tmp/build
$ /path/to/tinc/configure
$ make
This uses the output of "git describe" directly in configure.ac to
determine the version number to use, instead of hardcoding it.
With this change, current version information is completely removed
from the codebase itself, and is always fetched on-the-fly from git as
the single source of truth.
In order to ensure make dist always uses the current version number in
the contents of the packaged configure script as well as the package
name, a dependency is added to the dist target such that autoconf is
always run before dist to regenerate the version number. If this wasn't
the case, make dist would use the version number from when autoconf was
originally run, not the version number that make dist is running from.
That said, errors from that rule are ignored so that people can still
run make dist without a working autoconf.
In addition, the NEWS check is dropped, as it would then become annoying
because it would force make dist users to always have a line for the
current commit in the NEWS file.
Instead of using the hardcoded version number in configure.ac, this
makes tinc use the live version reported by "git describe",
queried on-the-fly during the build process and regenerated for every
build.
This makes tinc version output more useful, as tinc will now display the
number of commits since the last tag as well as the commit the binary is
built from, following the format described in git-describe(1).
Here's an example of tincd --version output:
tinc version release-1.1pre10-48-gc149315 (built Jun 29 2014 15:21:10, protocol 17.3)
When building directly from a release tag, this will look like the following:
tinc version release-1.1pre10 (built Jun 29 2014 15:21:10, protocol 17.3)
(Note that the format is slightly different - because of the way the
tags are named, it says "release-1.1pre10" instead of just "1.1pre10")
If git describe fails (for example when building from a release
tarball), the build automatically falls back to the autoconf-provided
VERSION macro (i.e. the old behavior).
read_rsa_public_key() was bailing out early if the given node already has an Ed25519 key, and
returned true even though c->rsa was NULL. The early bailout code isn't necessary anymore, so just
remove it.
This deals with the case where one node knows the Ed25519 key of another node, but not the other
way around. This was blocked by an overly paranoid check in id_h(). The upgrade_h() function already
handled this case, and the node that already knows the other's Ed25519 key checks that it has not
been changed, otherwise the connection will be aborted.
